NL8105682A - Steam injection system for internal combustion engine - has electronic control of temp. and water supply responsive to difference between steam sensor and reference voltages - Google Patents

Abstract

This system injects steam into the carburettor of an engine, to improve fuel combustion. Water in a boilder (1) is heated, and the resulting steam flows through a chamber (11) where it is dried by the catylitic action of metal or metallic oxide mesh. The dry steam is then fed through the conventional air filter (12) into the air intake (13) of the engine. The output of a steam temp. sensor (14) is compared (16) with a reference voltage (17). The difference output of the comparator is amplified (18) and used to control the heater (20) on the surface (8) of the water in the boiler. Another sensor (21) detects the temp. at the surface of the water, and this signal is compared (23) with a reference (25), amplified (24) and used to drive a pump (4), which 'tops up' the boiler from the supply tank (6) when the water level falls.

Description

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Brief Designation: Device for supplying steam to the intake system of an internal combustion engine.

The invention relates to a device for supplying steam to the intake system of a combustion engine, comprising a water reservoir, a heating member for heating water contained in the reservoir and a pipe connected to the reservoir for the discharge of steam to the intake system.

Such an apparatus is known from Dutch patent application 7513507. As described in this application, the steam is thereby passed along a catalyst, which has a favorable effect on combustion and the prevention of undesired compositions of the exhaust gases.

In this known device, the reservoir is heated by means of the exhaust pipe, while water is supplied to the water reservoir close to its top in open communication with the atmosphere from a container arranged above the water reservoir, which is provided with a supply pipe extends a certain distance in the water tank in order to maintain the level in the water tank 20 at a certain level.

It has been found in practice that a regular controlled supply of steam to the internal combustion engine cannot be obtained with the aid of this device, since strong variations occur when the water reservoir is heated with the aid of the outlet under varying weather conditions and in particular in cold seasons. insufficient steam formation is generated. Undesirable air can also be drawn in via the water reservoir. The supply of water to the water reservoir also takes place very irregularly.

The object of the invention is to obtain a device of the above type, wherein the disadvantages associated with the known device can be avoided.

According to the invention this can be achieved in that the device is provided with a probe for detecting the temperature of the steam, while the probe is coupled to a mechanism for controlling heating element (s) operating etetrically.

By using electrically operated heating elements 8105682 -2-22301 / CV / tl; v r * t the heating of the water in the water reservoir can be achieved independently of the ambient temperature Φ in the desired manner. By controlling this heating in dependence on the observation of the temperature of the steam, which corresponds to the presence or absence of steam, the supply of steam can be accurately controlled for the intended purpose.

According to a further feature of the invention, a probe is further provided by means of which the water level in the water reservoir is detected and the supply of water is controlled depending on the observed level. This allows the water level to be kept at a desired value within narrow limits, which will favor the regular steam production.

The invention will be explained in more detail below with reference to an exemplary embodiment of the device according to the invention which is schematically shown in the accompanying sketch.

The device comprises a water reservoir 1, which is connected to a pump 4 via a filling pipe 2 opening into the bottom of the reservoir, in which a non-return valve 3 is arranged. The pump 4 is connected via a suction line 5 to a storage tank 6. It will be clear that the non-return valve 3 only allows water to flow, which flows from the pump 4 to the water reservoir 1.

The water reservoir is furthermore provided with an overflow pipe 7, the end of which is situated in the tank near the bottom, while the end projecting outside of the tank is situated some distance above the normal operating level 8 of the water in the water reservoir 1.

A connecting piece 9 is arranged on the top of the water reservoir. A thin discharge pipe 10 is connected to the connecting stub 9.

Near The end remote from the water reservoir, the discharge conduit 10 has a larger diameter portion in which a catalyst body 11 is received. In general, this catalyst body will be made of cerium or germanium, but also other materials such as thorium, manganese, copper, aluminum, rhenium, indium, paldium, platinum, titanium, silicon, tin, zirconium, hafnium, lead or Kü (104 ) or 35 oxides of these dements may be eligible.

The steam discharge pipe 10 opens into the air inlet system of a combustion engine, in the illustrated embodiment shown in a conventional air filter 12, which is placed on an inlet pipe 13 of a combustion engine.

A probe or temperature sensor 14 is arranged near the outlet opening of the water reservoir 1 to which the connecting piece 9 is connected.

This probe or sensor 14 is coupled by means of a line 15 to a comparator 16. A comparatively adjustable reference value transmitter 17 is further connected to the comparator 16. The signal from the probe 14 is compared with the reference SIG-10 sew and depending on these observations, the current is switched on by means of the comparator 16 via an amplifier B and lines 19 for one or more electric filaments 20 arranged in the water reservoir. the filaments can be utilized, which are commonly utilized in diesel engines to heat the combustion spaces in the cylinders before starting.

A further temperature probe or sensor 21 is arranged at the desired water level 8 in the water reservoir 1. The probe 21 is connected via a line 22 to a comparator 23. A comparatively adjustable reference value sensor 25 is also connected to the comparator 23. The signal from the comparator 23 is fed to an amplifier 24 by means of which the pump 4, preferably driven by an electric motor, will be activated or not, depending on the signal from the comparator 23.

During operation, current will be supplied to one or more of the filament coils 20 for heating the water contained in the reservoir 1 in order to form steam. The presence of steam is detected by the probe 14 and if sufficient steam has formed, a signal can be given via the probe 14, by means of which the power supply is switched off. However, as soon as the amount of steam decreases, the temperature detected by the sensor 14 will change, whereby a signal will again be output via the sensor 14, with the aid of which the power supply to one or more heating coils will be reactivated. It will be clear that in this way a constant supply of steam to the pipe 10 can be ensured.

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If the water level 8 falls, both the probe 21 and at least parts of the glow coil (s) will emerge above water and the probe 21 will be affected by radiant heat from the relevant glow coil (s). As a result, the probe 21 will give a signal with the aid of which the pump 4 will be activated via the comparator 23 and the amplifier 24 to supply water from the storage container 6 via the conduit 2 to the water reservoir 1. As soon as the probe and / or the filament coil (s) are submerged in the water again, the probe 21 will again give a signal for switching off the pump 4. Thus, the water level can be controlled within narrow limits, which of course is a favorable affects regular steam formation.

By designing the two reference value generators 17 and 24 in an adjustable manner, the device can be easily adapted to the type or type of combustion engine, such that an optimal steam supply to the combustion engine is ensured during operation, using a standard version of the device.

Alternatively, instead of a separate probe 21, a heating element 20 can also be used for level control. A constant measuring current is then passed through the heating element, while the element is heated with a pulsating current. In the pauses between the pulses, it is possible to measure any variations in the resistance in the heating element while retaining the measuring current, and these variations in resistance will give an indication of whether or not the respective heating element is immersed in the water and thus be used to control whether or not the pump is switched on 4.

While not shown, it will be appreciated that the appropriate parts can be insulated to prevent heat losses and premature condensation of the steam.

35 8105682

Claims (7)

1. Device for supplying steam to the intake system of an internal combustion engine, comprising a water reservoir, a heating element for heating water contained in the reservoir and a pipe connected to the reservoir for the discharge of steam to the intake system, characterized in that the device is provided with a probe for sensing the temperature of the steam, while the probe is coupled to a mechanism for controlling an electrically acting heating element (s). 2. Device as claimed in claim 1, characterized in that a sensor is arranged with the aid of which the water level in the water reservoir is detected and the supply of water is regulated depending on the observed level. 3. Device as claimed in claim 1 or 2, characterized in that the sensor for detecting the temperature of the steam is arranged near the discharge opening for the steam arranged in the reservoir. 4. Device as claimed in any of the foregoing claims, characterized in that the device is provided with a reference value transmitter and a comparison device for comparing the signal given by the sensor for detecting the temperature of the steam with the reference value, while the heating of the electrically acting heating element (s) can be regulated by means of the comparator. 5. Device according to any one of the preceding claims 2 * - 4, characterized in that a reference value transmitter is provided, which, together with the water level sensor, is connected to a comparator with a feed mechanism for supplying water. can be activated on the water tank. 5 "CONCLUSIONS -5- 22301 / CV / tl 6. Device as claimed in any of the foregoing claims, characterized in that a temperature probe is arranged at the level of the water level for controlling the water level in the water reservoir, while a glow coil arranged as heating element in the water reservoir is also located at a height of the water level is arranged in such a way that when the water level falls, the probe is exposed to radiation from the filament. A device according to any one of the preceding claims 2 to 5, characterized by the fact that a heating element is arranged as heating element in the water reservoir and means are provided for carrying through 8105682 ♦ «w 1 -6-22301 / CV / tl. a constant measuring current through the heating element and means for conveying a pulsating heating current, and further means 5 are provided for detecting variations in the resistance of the filament by means of the measuring current and for using these variations as a signal for the or not actuating a feeding mechanism for supplying water to the water reservoir. 8105682